Evaluation of cochlear and auditory brainstem functions in COVID-19 patients; a case control study

Background Many viral infections can cause hearing loss due to affection of cochlear hair cells or neurogenic pathway. Although, the damage secondary to viral infections is mainly cochlear affection; auditory brainstem can be affected as well. It was predicted that SARS-COV-2 infection can similarly...

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Bibliographic Details
Published in:The Egyptian journal of otolaryngology 2024-12, Vol.40 (1), p.29-8, Article 29
Main Authors: Nassar, Adel Abdel-Maksoud, El-Kabarity, Rasha Hamdy, El-Din Hassan, Nourhan Nour, El-Gendy, Abeer Mohamed
Format: Article
Language:English
Subjects:
ABR
Analysis
Audiometry
COVID-19
Disease
Ears & hearing
Electrodes
Health aspects
Hearing loss
Hearing protection
Infection
Infections
Medical research
Medicine
Medicine & Public Health
Medicine, Experimental
OAE
Original Article
Patients
Severe acute respiratory syndrome coronavirus 2
Surgery
Tinnitus
Viral infections
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Summary:Background Many viral infections can cause hearing loss due to affection of cochlear hair cells or neurogenic pathway. Although, the damage secondary to viral infections is mainly cochlear affection; auditory brainstem can be affected as well. It was predicted that SARS-COV-2 infection can similarly affect the auditory system. This study aimed to detect affection in auditory system and if present investigate the possible site of lesion (up to the level of the brain stem) in relation to COVID-19 infection. Methods This is a case control study, where the study group constituted of thirty adults, diagnosed with COVID-19 at least 2 weeks prior to testing and up to 6 months, without previous auditory complaints pre-COVID-19 or other risk factors that could affect the auditory pathway. Fifteen adult participants that were age and gender matched to the study group with no previous history of covid-19 infection constituted the control group. Audiological evaluations done to all participants were pure-tone and speech audiometry, tympanometry, transient-evoked otoacoustic emission with and without contralateral suppression and auditory brainstem response measurements. Results The study group showed significantly worse pure tone thresholds at high frequencies 4 and 8 kHz ( p < 0.01), significantly worse transient-evoked otoacoustic emission signal to noise ratio at 2800 Hz and 4000 Hz ( p < 0.05) and significantly lower total suppression index ( p 0.05). Conclusion COVID-19 had subtle effect on cochlear basal turn, and it is shown that the auditory efferent system may also be affected, while the auditory nerve and afferent brainstem pathways seems to be spared. Moreover, the absence of the symptoms of auditory dysfunction postcovid-19 does not guarantee normal auditory functions.
ISSN:2090-8539
1012-5574
2090-8539
DOI:10.1186/s43163-024-00580-x